Significance Intense insecticide usage is suggested to be a significant contributor to the observed decline of insect populations around the world. Beneficial insects play essential roles in food production and ecosystem health. It is therefore vital to understand the mechanisms by which low doses of insecticide impact insect biology in order to understand and assess the threat posed. We investigated the impacts of the neonicotinoid insecticide imidacloprid on Drosophila . The binding of the insecticide to receptors in the brain triggers oxidative stress, reduces energy levels, and induces neurodegeneration as well as vision loss. As the receptors targeted by imidacloprid are conserved among insects, and other insecticides have also been shown to cause oxidative stress, these findings have wider significance.